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LMC7660 Output Current

Abdullah Ghamdi
Prodigy 60 points
Other Parts Discussed in Thread: TLV333, ADS1220, LMC7660, TLV2333, TL7660

Hi


I am planning to use a charge pump in order to provide a negative rail from a +2.5V source. I found TI's LMC7660IMX/NOPB to be suitable for the job, but I went through the datasheet and found no information regarding the output current capability of the device. The question is simply...


What is the maximum output current that the device can source?


Best regards,

Abdullah

  • 0
    TI__Guru**** 191445 points
    look at datasheet figures 3 and 4. Do those provide the info you need?
  • 0 in reply to JohnTucker
    Prodigy 60 points
    I looked at Figure 4 and from what I understand, it describes the voltage drop at the output given a +5V input at different load currents. For example, when tracing the curve, a drop of -5V to -4V (by 1 volt) will occur due to a 20mA load current.

    If my understanding is correct, then please inform me.
  • 0 in reply to Abdullah Ghamdi
    TI__Guru**** 191445 points
    I think that is correct. These charge pumps are intended for very light load in the rang of 1 mA or so.
  • 0 in reply to JohnTucker
    Prodigy 60 points
    In this case, could you please recommend me an alternative part form TI that can support a little heavier load (Min of 2mA @ 0.1V max drop) across a wide temperature range?

    I am trying to be careful here because I am using this charge pump to provide a negative supply to ADS1220's AVSS which is rated for a maximum of -2.3V. In addition, I am using it to supply TI's OP AMP (TLV333) as a part of bipolar spply (+2.5V and -2.5V). I want to make sure that at the very worst case, charge pump would maintain a regulation no higher than -2.4V.
  • 0 in reply to Abdullah Ghamdi
    TI__Guru**** 191445 points
    I don't really know those parts very well. Let me see if I can find someone who does.
  • 0 in reply to JohnTucker
    Prodigy 60 points

    Dear John and others,

    I hope that, if you can, you address the following concerns I have regarding this part:

    As I said before, I am using LMC7660 to provide a -2.5 supply rail to ADS1220 and TLV2333. The +2.5V supply rail fed to charge pump is coming from TLV7132 (2.5V LDO).  To check maximum load current of this -2.5V rail, I  referred to datasheet of ADC and OP AMP and came with the following information:

    TLV2333's IQ = 28μA (MAX)  

    , and assuming this consumption per amp ---->  IQ= 28×2 = 56μA ,

    , and since it's driving a light load (input of ADS1220 with PGA disabled) ----> IQ + load current <= 100μA (WORST CASE)

    ADS1220's Ivdd (analog supply current @ Turbo mode, PGA disabled) =~ 400μA  ---> pump it up to 500μA

    TOTAL CONSUMPTION = 100 + 500 = 600μA

    My only concern now is that since I am using a bipolar power supply for ADS1220 (+2.5V, -2.5V), I am worried that charge pump's voltage drop @ 600μA, in addition to output ripple might at some point exceed ADS1220's maximum rated supply for AVSS, which -2.3V.

    From LMC7660's datasheet, graph of output voltage vs. load current shows that at my load current (600μA), voltage drop will not even reach 0.1V, which is a good thing, but what about ripple? is there an equation to calculate the expected amount of ripple at the output? I found the following equation from TL7660's datasheet, but I am not sure if it's applicable:



    Given the pumping frequency of LMC7660 (10KHz), C2 = 10μF, ESR OF C2 = 2.5, Iout = 600μA

    ,then peak-to-peak ripple =~ 116μV


    What do you think? is there anything wrong or missing here?

    Thanks,

    Abdullah